Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location

Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location

Urban hedgerows can act as barriers to roadside particulate air pollution, but details on methodologies to quantify pollutant capture, most efficient species to use, and practical planning advice are still evolving. We aimed to compare three widely used approaches to quantify particulate accumulatio...

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Bibliographic Details
Main Authors: Tijana Blanuša, Zeenat Jabeen Qadir, Amanpreet Kaur, James Hadley, Mark B. Gush
Format: Article
Language:English
Published: MDPI AG 2020-10-01
Series:Environments
Subjects:
<i>Cotoneaster</i>
<i>Crataegus</i>
heavy metals
particulate matter
<i>Thuja</i>
Online Access:https://www.mdpi.com/2076-3298/7/10/81
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spelling doaj-37335166a9bc4644947bd2741ebbfa5b2020-11-25T02:58:18ZengMDPI AGEnvironments2076-32982020-10-017818110.3390/environments7100081Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site LocationTijana Blanuša0Zeenat Jabeen Qadir1Amanpreet Kaur2James Hadley3Mark B. Gush4Science and Collections Division, Royal Horticultural Society, Wisley, Woking GU23 6QB, UKSchool of Agriculture, Policy and Development, University of Reading, Reading RG6 6AS, UKChemical Analysis Facility, School of Chemistry, Food and Pharmacy, University of Reading, Reading RG6 6AP, UKSchool of Agriculture, Policy and Development, University of Reading, Reading RG6 6AS, UKScience and Collections Division, Royal Horticultural Society, Wisley, Woking GU23 6QB, UKUrban hedgerows can act as barriers to roadside particulate air pollution, but details on methodologies to quantify pollutant capture, most efficient species to use, and practical planning advice are still evolving. We aimed to compare three widely used approaches to quantify particulate accumulation and deposition, and to ascertain the most cost-effective and robust approach for the rapid screening of various types of hedges. Secondly, using the most efficient methodology, we screened the summertime deposition of particulates on roadside hedges in Reading (UK), not just on species with differing leaf surface characteristics, but also along a transect of the hedge depth. Finally, we also compared particles’ capture by hedge leaf surfaces in locations with different traffic intensities, to try and ascertain the extent of reduction of particles’ concentration in various hedge types and urban locations. Results suggest that the gravimetric determination of particulate capture was most rapid and cost-effective, while being least technically demanding. We confirmed that hairy and more complex leaves captured most particulates, particularly in the >10 μm range. However, species choice only had a significant impact on the extent of capture on major roads, where the pollutant concentrations were highest. Furthermore, only hedge depths in excess of 2 m were found to noticeably reduce the concentration of fine particles in species with less capacity for particulates’ capture. Findings complement the growing body of knowledge to guide urban and landscape planners in choosing the most appropriate species to mitigate air quality in various urban contexts.https://www.mdpi.com/2076-3298/7/10/81<i>Cotoneaster</i><i>Crataegus</i>heavy metalsparticulate matter<i>Thuja</i>
collection DOAJ
language English
format Article
sources DOAJ
author Tijana Blanuša
Zeenat Jabeen Qadir
Amanpreet Kaur
James Hadley
Mark B. Gush
spellingShingle Tijana Blanuša
Zeenat Jabeen Qadir
Amanpreet Kaur
James Hadley
Mark B. Gush
Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location
Environments
<i>Cotoneaster</i>
<i>Crataegus</i>
heavy metals
particulate matter
<i>Thuja</i>
author_facet Tijana Blanuša
Zeenat Jabeen Qadir
Amanpreet Kaur
James Hadley
Mark B. Gush
author_sort Tijana Blanuša
title Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location
title_short Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location
title_full Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location
title_fullStr Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location
title_full_unstemmed Evaluating the Effectiveness of Urban Hedges as Air Pollution Barriers: Importance of Sampling Method, Species Characteristics and Site Location
title_sort evaluating the effectiveness of urban hedges as air pollution barriers: importance of sampling method, species characteristics and site location
publisher MDPI AG
series Environments
issn 2076-3298
publishDate 2020-10-01
description Urban hedgerows can act as barriers to roadside particulate air pollution, but details on methodologies to quantify pollutant capture, most efficient species to use, and practical planning advice are still evolving. We aimed to compare three widely used approaches to quantify particulate accumulation and deposition, and to ascertain the most cost-effective and robust approach for the rapid screening of various types of hedges. Secondly, using the most efficient methodology, we screened the summertime deposition of particulates on roadside hedges in Reading (UK), not just on species with differing leaf surface characteristics, but also along a transect of the hedge depth. Finally, we also compared particles’ capture by hedge leaf surfaces in locations with different traffic intensities, to try and ascertain the extent of reduction of particles’ concentration in various hedge types and urban locations. Results suggest that the gravimetric determination of particulate capture was most rapid and cost-effective, while being least technically demanding. We confirmed that hairy and more complex leaves captured most particulates, particularly in the >10 μm range. However, species choice only had a significant impact on the extent of capture on major roads, where the pollutant concentrations were highest. Furthermore, only hedge depths in excess of 2 m were found to noticeably reduce the concentration of fine particles in species with less capacity for particulates’ capture. Findings complement the growing body of knowledge to guide urban and landscape planners in choosing the most appropriate species to mitigate air quality in various urban contexts.
topic <i>Cotoneaster</i>
<i>Crataegus</i>
heavy metals
particulate matter
<i>Thuja</i>
url https://www.mdpi.com/2076-3298/7/10/81
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